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Model: 174    

Do-It-Yourself Kit

$129

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  • • Product of choice for Engineering & Diploma students worldwide.
  • • Real-time applications.
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  • • Clearly defined problem statement.
Solderable DIY kit with
"Assembled & Tested Prototype board"

DIY kit comes with an Assembled and Tested prototype board and pre-programmed controller ensuring 100% output guarantee. Includes complete hardware & tools with plain PCB for assembling project from scratch.

Extensive documentation for project execution including step-by-step instructions for Circuit building, Assembly procedure and Troubleshooting. Thorough understanding from the Problem definition to Circuit Design to Programming, Simulation, Testing, Troubleshooting and finally building a working Hardware Prototype.

400+ end to end unique project solutions in wide areas of Electronics, Electrical, Embedded, Communication, IoT, Arduino and more.

PROJECT DESCRIPTION

The main scope of this project is to transfer the electrical energy from a power source to electrical loads without involving any physical contact.

This project can be used for charging batteries that cannot be physically connected electrically – for example, patients' with pace makers where such batteries need to be operated every year to replace them. This project is designed such that, it is possible to charge a rechargeable battery wirelessly for this purpose. Since the charging of the battery is not possible to be demonstrated practically, we are providing a DC fan that runs through wireless power.

The wireless power transfer is possible by the high frequencies. The proposed system uses a high frequency transformer and copper coils. The high frequency transformer is used for developing the high frequencies. The copper coils are used for generating the magnetic fluxes. The fan is connected to the circuit for indicating the wireless power.

For developing high frequency supply from 230v 50Hz AC to 12v 25-40 KHz AC supply, a high frequency transformer is used. The output is fed to a tuned coil forming as primary of an air core transformer. The secondary coil develops a voltage of HF 12volt. Thus, the transfer of power takes place by the primary (transmitter) to the secondary (receiver) that is separated with a considerable distance (say 3-5 cm). Therefore, the power received from the primary transmitter is received by the secondary coil, which is then utilized to run the load.

This concept is an emerging technology, and in future the distance of power transfer can be enhanced to a certain level, and the research across the world is still going on, on this concept.

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The main scope of this project is to transfer the electrical energy from a power source to electrical loads without involving any physical contact.

This project can be used for charging batteries that cannot be physically connected electrically – for example, patients' with pace makers where such batteries need to be operated every year to replace them. This project is designed such that, it is possible to charge a rechargeable battery wirelessly for this purpose. Since the charging of the battery is not possible to be demonstrated practically, we are providing a DC fan that runs through wireless power.

The wireless power transfer is possible by the high frequencies. The proposed system uses a high frequency transformer and copper coils. The high frequency transformer is used for developing the high frequencies. The copper coils are used for generating the magnetic fluxes. The fan is connected to the circuit for indicating the wireless power.

For developing high frequency supply from 230v 50Hz AC to 12v 25-40 KHz AC supply, a high frequency transformer is used. The output is fed to a tuned coil forming as primary of an air core transformer. The secondary coil develops a voltage of HF 12volt. Thus, the transfer of power takes place by the primary (transmitter) to the secondary (receiver) that is separated with a considerable distance (say 3-5 cm). Therefore, the power received from the primary transmitter is received by the secondary coil, which is then utilized to run the load.

This concept is an emerging technology, and in future the distance of power transfer can be enhanced to a certain level, and the research across the world is still going on, on this concept.

PROJECT HIGHLIGHTS
High-Resonance Frequency Transformer.
Call/mail for Tech Support from 10 am - 7 pm IST.
Easy to use, Self-explanatory kit.
All-inclusive solution kit.
Extensive audio-visuals available.
Branding-free material.
Pre-programmed Microcontroller.
Non-Microcontroller Project.
×
High-Resonance Frequency Transformer.
Call/mail for Tech Support from 10 am - 7 pm IST.
Easy to use, Self-explanatory kit.
All-inclusive solution kit.
Extensive audio-visuals available.
Branding-free material.
Pre-programmed Microcontroller.
Non-Microcontroller Project.
BLOCK DIAGRAM
Hardware Requirements
  • HF-Transformer
  • HF-diodes
  • rectifier
  • Transistors
  • Two air filled inductor coils
  • Voltage regulator
  • BLDC fan
×
  • HF-Transformer
  • HF-diodes
  • rectifier
  • Transistors
  • Two air filled inductor coils
  • Voltage regulator
  • BLDC fan
Q & A
Q:  Can the power be transferred wirelessly, even if I place a object in between?
A:  Yes, power can still be transferred.
Q:  Can one increase the transfer distance?
A:  Check our project 343 for longer distance. https://www.edgefxkits.com/wireless-power-transfer-in-3d-space
Q:  Is it possible to increase the transmitting range?
A:  Yes, it is possible to increase the transmitting range. For this, please refer model no.343 for a larger distance about 10cm. Here is the link:
http://www.edgefxkits.in/wireless-power-transfer-in-3d-space
Q:  What is wireless power transfer?
A:  Wireless power transfer is transferring of power wirelessly, using mutual induction of 2 coils in HF.
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Showing 1 of 1 reviews
Ridzuan, Malaysia on 24th October, 2014, 02:53 PM

You service is good.

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